L - carnitine is an amino acid which has
a central role in the metabolism of fats.
Not exact matches
Pyridoxine, or vitamin B6, serves a variety of functions
in the body and performs a
central role in amino acid
metabolism.
Known as «microbiota,» these bacteria have a vital
role to play
in human health: they are
central to our
metabolism and well - being.
Also
in humans, both insulin and leptin play important
roles in regulation of energy
metabolism and body weight via
central and peripheral effects.
Adipose tissue has a
central role in whole - body energy
metabolism as a dynamic store of triglycerides, and as an endocrine organ that coordinates energy intake and use by other tissues (2).
Several functions
in the
central nervous system appears to play an important
role in the development of obesity, as well as the
metabolism of adipose tissue and insulin.
Interestingly, it has been shown that the creatine / phosphocreatine pathway may play a
central role in energy
metabolism, and nutritional creatine supplementation has been shown to impart beneficial effects
in a number of diverse disease pathologies (Kitzenberg et al., 2016).
AMP - activated protein kinase (AMPK) plays a
central role in controlling hepatic lipid
metabolism through modulating the downstream acetyl CoA carboxylase (ACC) and carnitine palmitoyl transferase 1 (CPT - 1) pathway.
As mentioned above, Vitamin K2 plays a
central role in calcium
metabolism, the main mineral found
in bones.
The Metabolic Analysis Profile is a nutritional test using a urinary assessment of 46 key organic acids grouped according to their primary
roles in the following four
central areas of
metabolism.
by Josh Hodnik Amino acids play
central roles as building blocks and as intermediates
in metabolism.
As its many different titles might suggest, Biotin plays a supportive
role in a wide number of different bodily systems and processes, such as the
central nervous system, the digestive tract,
metabolism, and even healthy cells.
Research investigating the functional
role of the A-1 allele has found that carriers of this allele,
in contrast to carriers of the A-2 allele, have fewer brain D2 dopamine receptors [23, 24], have diminished glucose
metabolism in the brain [25], are more attuned and responsive to stress [26], and exhibit reduced dopaminergic activity
in the
central nervous system [23].